17 Years Factory Siway MG PU FOAM to Los Angeles Manufacturers
Short Description:
Description MG PU FOAM is the expansion, moisture curing, has the strong cohesiveness, elastic foam obturator structure; Save work to save time, reduce waste; High bond strength; Bubble can stick in the concrete, wood, metal, plastic, such as base material surface, but not including teflon, silicon resins; Key Features 1. Noise silencing effect 2. Strong bonding strength 3. Water & weatherproof 4. Primerless adhesion to most building materials Basic Application 1.Doors and Windows and...
"Based on domestic market and expand overseas business" is our development strategy for 17 Years Factory Siway MG PU FOAM to Los Angeles Manufacturers, we are looking forward to even greater cooperation with overseas customers based on mutual benefits. Please feel free to contact us for more detail
Description
MG PU FOAM is the expansion, moisture curing, has the strong cohesiveness, elastic foam obturator structure; Save work to save time, reduce waste; High bond strength;
Bubble can stick in the concrete, wood, metal, plastic, such as base material surface, but not including teflon, silicon resins;
Key Features
1. Noise silencing effect
2. Strong bonding strength
3. Water & weatherproof
4. Primerless adhesion to most building materials
Basic Application
1.Doors and Windows and wall body between the gap filling sealing, fixed bond
2.Language lab, studio, etc when decorating, gap to fill
Technical data sheet
Project |
Value |
||
Density, Kg/m³,Not less |
10 |
||
Thermal conductivity,35℃,W/(m·K) no more than |
0.050 |
||
Dimensional stability(23±2)℃,48,h no more than |
5 |
||
Operating temperature |
-10~+35℃ |
||
Optimum operating temperature |
+18~+25℃ |
||
Temperature range(After curing) |
-35~+80℃ |
||
Tensile bond strength kPa Not less |
Aluminum plate |
Standard condition,7d |
80 |
Immersion,7d |
60 |
||
PVC plate |
Standard condition,7d |
80 |
|
Immersion,7d |
60 |
||
Cement Plate |
Standard condition,7d |
60 |
|
Shear strength,kpa,Not less |
80 |
||
Foam expansion ratio,Not less |
Standard value-10 |
Certification
JC 936-2004
Color
White
Package
750ml in Bottle * 12 per box
Shelf life
12 months
Note
If you want the TDS or MSDS or other details, please contact with our sales person.
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Chemists Create Self-Assembling Conductive Rubber
April 1, 2007 (originally posted by DBIS – American Institute of Physics)
Polymer chemists have created a flexible, indestructible material, called metal rubber, that can be heated, frozen, washed or doused with jet fuel, and still retain its electricity-conducting properties. To make metal rubber, chemists and engineers use a process called self-assembly. The material is repeatedly dipped into positively charged and negatively charged solutions. The positive and negative charges bond, forming layers that conduct electricity. Uses of metal rubber include bendy, electrically charged aircraft wings, artificial muscles and wearable computers.
BLACKSBURG, Va. — Portable gadgets were meant to be taken on the move. Portable also means accidents and damage can happen. Now, imagine electronics that can take a beating and bounce back! It’s soon possible with a shocking new flexible, indestructible material, called metal rubber.
“You can heat it. You can freeze it. You can stretch it. You can douse it with jet fuel,” Jennifer Lalli, a polymer chemist at NanoSonic, Inc., in Blacksburg, Va., tells DBIS.
Abuse it, and metal rubber snaps back to its original shape. But the best part of this rubbery material? It conducts electricity just like metal and is also lightweight.
To make metal rubber, chemists and engineers use a process called self-assembly. The material is repeatedly dipped into positively charged and negatively charged solutions. The positive and negative charges bond, forming layers that conduct electricity.
“Electricity flows through metal rubber because there are little metal particles, and the electricity flows from little metal particle, to little metal particle, to little metal particle, between the two ends just like a piece of copper metal,” Rick Claus, a NanoSonic electrical engineer, tells DBIS.
The self-assembly process coats almost anything — even fabric can be made to carry electrical power. Lalli says you can wash the metal rubber textiles and they maintain electrical current.
Scientists are looking into uses of metal rubber like bendy, electrically charged aircraft wings and artificial muscles — and wearable computers. Abuse-resistant, flexible circuits, like cell phones, are still years away, but the future looks bright — and powerful — for bendable products.
Science Insider
BACKGROUND: Materials engineers and chemists at NanoSonic, Inc. have developed a way to produce lightweight electrically conductive textiles that won’t break or disintegrate when you wash or stretch them. This makes the textiles perfect for use in sensor-laden smart clothes. An important component is the company’s trademarked metal rubber, a substance that has the elasticity of rubber and ability of steel to conduct electricity/ NanoSonic’s metal rubber and e-textiles could find use in protective clothing; flexible antennae and circuits; flexible displays; electromagnetic shielding; biomedical sensors and health monitoring; and applications in outer space.
HOW ITS MADE: Instead of just mixing different materials together, like in a blender or weaving metal wire components into fabrics, NanoSonic’s manufacturing technique is a bit like growing textiles in a makeshift washing machine. It’s called “electrostatic self-assembly.” By dipping the base material into baths of alternating electrons and protons, those nanoparticles with opposite charges attract and stick to each other like Velcro. So many different properties can be linked together without the material falling apart when it is washed or stretched. Each dip adds one layer. The e-textiles are lower in weight, with lower manufacturing costs and few byproducts, plus they can withstand repeated washings without falling apart.
EXAMPLES: In combat conditions, a US solder clothed in layers of garments made from e-textiles could wear sensors close to the skin that monitor blood pressure, body temperature, and heart rate. Another layer could be integrated into the Kevlar vest to register impact from a bullet or shrapnel. And sensors in an outer garment could sniffy the air for toxic agents of chemical or biological warfare. It might also be possible to make a thicker but lightweight conductive fabric for electric power workers that would not limit their range of motion, but would reduce the effects of electric power line radiation.
The Materials Research Society contributed to the information contained in the TV portion of this report.
More information on this story
Nanosonic
Blacksburg, Va. 24060
540-953-1785
info@nanosonic.com
https://www.nanosonic.com
Materials Research Society
506 Keystone Drive
Warrendale, PA 15086-7573
Tel: 724-779-3003
https://www.mrs.org